Open Access
Decoupling of soil nutrient cycles as a function of
Manuel Delgado-Baquerizo,Fernando T. Maestre,Antonio Gallardo,Matthew A. Bowker,Matthew D. Wallenstein,José L. Quero,Victoria Ochoa,Beatriz Gozalo,Miguel García-Gómez,Santiago Soliveres,Pablo García-Palacios,Miguel Berdugo,Enrique Valencia,Cristina Escolar,Tulio Arredondo,Claudia Barraza-Zepeda,Donaldo Bran,José A. Carreira,Mohamed Chaieb,Abel A. Conceiça˜o,Mchich Derak,David J. Eldridge,Adrián Escudero,Carlos I. Espinosa,Juan José Gaitán,M. Gabriel Gatica,Susana Gómez-González,Elizabeth Guzman,Julio R. Gutiérrez,Adriana Florentino,E.N. Hepper,Rosa M. Hernández,Elisabeth Huber-Sannwald,Mohammad Jankju,Jushan Liu,Rebecca L. Mau,Maria N. Miriti,Jorge Monerris,Kamal Naseri,Zouhaier Noumi,Vicente Polo,Aníbal Prina,Eduardo Pucheta,Elizabeth Ramírez,David A. Ramırez Collantes,R. L. Romão,Matthew Tighe,Duilio Torres,Cristian Torres-Díaz,Eugene D. Ungar,James Val,Wanyoike Wamiti,Deli Wang,Eli Zaady +53 more
Reads0
Chats0
TLDR
In this paper, the authors evaluate how aridity affects the balance between carbon (C), nitrogen (N) and phosphorus (P) in soils collected from 224 dryland sites from all continents except Antarctica and find a negative effect of aridity on the concentration of soil organic C and total N, but a positive effect on inorganic P.Abstract:
The biogeochemical cycles of carbon (C), nitrogen (N) and phosphorus (P) are interlinked by primary production, respiration and decomposition in terrestrial ecosystems. It has been suggested that the C, N and P cycles could become uncoupled under rapid climate change because of the different degrees of control exerted on the supply of these elements by biological and geochemical processes. Climatic controls on biogeochemical cycles are particularly relevant in arid, semi-arid and dry sub-humid ecosystems (drylands) because their biological activity is mainly driven by water availability. The increase in aridity predicted for the twenty-first century in many drylands worldwide may therefore threaten the balance between these cycles, differentially affecting the availability of essential nutrients. Here we evaluate how aridity affects the balance between C, N and P in soils collected from 224 dryland sites from all continents except Antarctica. We find a negative effect of aridity on the concentration of soil organic C and total N, but a positive effect on the concentration of inorganic P. Aridity is negatively related to plant cover, which may favour the dominance of physical processes such as rock weathering, a major source of P to ecosystems, over biological processes that provide more C and N, such as litter decomposition. Our findings suggest that any predicted increase in aridity with climate change will probably reduce the concentrations of N and C in global drylands, but increase that of P. These changes would uncouple the C, N and P cycles in drylands and could negatively affect the provision of key services provided by these ecosystems.read more
Citations
More filters
DissertationDOI
Exploring the possibilities of parsimonious nitrogen modelling in different ecosystems
TL;DR: In this paper, two parsimonious nitrogen models have been developed and implemented in two different data availability scenarios, one in a semi-arid natural forest ecosystem and the other in an anthropogenic agricultural ecosystem.
Dissertation
Modelling of the topsoil organic carbon content by analysing the potential of spectroscopic techniques for digital soil mapping
TL;DR: In this article, the authors explored the capacity of spectroscopy for map soil organic carbon content at regional scale using topsoil samples from Galicia (NW-Spain) and developed a spatially non-stationary approach that allows mapping soil organic content and also identifying the factors more relevant for its accumulation in Europe.
References
More filters
Journal ArticleDOI
Structural equation modeling reveals iron (hydr)oxides as a strong mediator of N mineralization in California agricultural soils
TL;DR: In this paper, a high degree of multicollinearity existed between many of the physiochemical parameters of the human body's physiological parameters and was found to be the case for most of the physiological parameters.
Journal ArticleDOI
Resorptions of 10 mineral elements in leaves of desert shrubs and their contrasting responses to aridity
TL;DR: In this article, the authors investigated variations in the resorption efficiencies of 10 mineral nutrients (i.e. nitrogen (N), phosphorus (P), potassium (K), magnesium (Mg), calcium (Ca), manganese (Mn), zinc (Zn), aluminum (Al), iron (Fe) and copper (Cu)) in leaves of desert shrubs and explore effects of aridity on resorptive efficiency of these nutrients.
Journal ArticleDOI
Biogeochemistry of soil inorganic and organic phosphorus: A compositional analysis with balances
TL;DR: In this article, a hierarchy of supervised balances between components of the soil P cycle computed as isometric log ratios (ILR) is presented to avoid biases when assessing P risk in managed terrestrial ecosystems.
Journal ArticleDOI
Effects of climate factors and soil properties on soil nutrients and elemental stoichiometry across the Huang–Huai–Hai River Basin, China
TL;DR: In this article, the authors investigated the impacts of climate factors, soil texture, and soil physicochemical properties on soil nutrient levels and elemental stoichiometry, and identified the key factors on soil nutrients and stochastic properties.
Journal ArticleDOI
Changes of plant N:P stoichiometry across a 3000-km aridity transect in grasslands of northern China
Xiao-Guang Wang,Xiao-Guang Wang,Xiao-Tao Lü,Feike A. Dijkstra,Haiyang Zhang,Xiaobo Wang,Wuyunna,Zhengwen Wang,Jiao Feng,Xingguo Han +9 more
TL;DR: The results indicated that the responses of plant nutrition to aridity were dependent on plant functional group, and plant and soil nutrients become increasingly decoupled at large spatial scale with increasing aridity.